Combination dough mixer refrigerating means and water cooling device



-March 330, 1943. MJA. STICELB'ER 2,315,230 COMBINAT'ION' DOUGH MIXER REFRIGEITING MEANS AND WATER COOLINGv DEVICE FiledfJune 270, 1941 2 Sheets-Sheet 1 Mrch 30, 1943. M A,..$T|CELBER 2,315,230

QOMINATION VDQUGH MIXER REFRIGERATING MENS AND WATER COOLING DEVICE Filed June 20, 1941 2 Sheets-Sheet 2 v 27 u INVENTOR ORNEY 0 A MERLIN 'Az STICE'LB? 97"3 6 WE/ic@ Patented Mar. 30, 1943 QOMBINATIGN DOUGH LIIXER REFRIGER- ATING MEANS AND WATER, COOLING DEVICE Merlin A. Sticelher, Kansas City, Mo. Application June 2o, 1941,'seria1 No. 398,930

22 claims. (ci. 62-1) My invention relates to a combination refrigerating means for dough mixers and water cooling device. The refrigerating means utilized is similar to that provided for dough mixers in my application Serial No. 364,903, filed November 8, 1940, on Refrigerated dough mixer which has matured mso Patent No. 2,274,220, February 24,

In mixing dough one of the ingredients in all doughs is; of course, water, and this is commonly referred to as make-up water. In the art of mixing dough it is desirable to carry on the mixing action to a stage such that the highest gluten development oi the iiour in the dough can be obtained. This isaccomplished by the mixing,

. or kneadin'g, action of the agitator members, or

beater arms, in the dough mixer, and is dependent upon the length of time that the mixing operation takes place, as Well as the rate atY which it takes place. Due to the heat generated in the agitating process, or mixing process, caused by the mechanical movement of the mass within the mixer, as well as by the heat developed by the action of the yeast on the dough, there is a gradual rise in temperature of the contents of the dough mixer, ordinarily, from the beginning of the mixing operation, which rise in temperature is accelerated as the operation proceeds. harmful to the quality of the dough to have the temperature thereof rise above a. certain point in the mixer, it has been previously necessary to shorten the mixing operation below the most desirable for gluten. development, 'to prevent too high temperature in the dough mixer. In accordance with my above referred to invention,V a method has been provided and means has been provided for carrying out the mixing of a dough, whereby the mixing operation can be carried out to the full extent desired, without any harm being done to the dough and the best results obtained by the mixing operation, such as obtaining the greatestdevelopment of gluten in a dough mixture, without having the temperaturev rise to a point that is too high for the dough- It is common practice to start a dough with Y cold water, the water being as near to the freezing point as practicable when the mixing of the dough is stard, and in order to obtain the most desirabe results, it is desirable-to use such cold water in my improved dough mixer, as Well as in any other dough mixer. The use of ice to get the dough to a. low temperature is not desirable, because the melting ice increases the water content of the dough, whichhas to be compensated for, and also causes considerable incon venience and requires calculation to get the prop- -er moisture content in the dough. Accordingly it is customary to provide means for cooling the make-up water, even though my improved refrigerated dough mixer is utilized in the mixing of the dough, as usually the tap water is at a relatively high temperature, and it is undesirable to -unnecessarily warm the mixtureV by such relatively4 warm water, the warm water not only lowering the efliciency of the. refrigerated mixture when it enters the same with the other ingredients of the dough, but preventing the highest eciency and best results obtainable in any dough mixer, a refrigerated one as well as any other kind.

'A It is accordingly a purpose of my invention to provide a dough mixer in which means is provided for simultaneously cooling make-up water and the wall, or'wal'ls, of the dough mixer to refrigerate the contents thereof in the manner pointed out in my above referred to application.

It is a. further purpose of my invention to utilize the same cooling means or expansion coil for Asitis cooling the water, that cools the walls of ther' mixer, to ,thus avoid any duplication of any parts and avoid the necessity of providing a-separate refrigerating system forthe make-up water.

It is a particular purpose of my invention to provide in a dough mixer, means for refrigerating the wall thereof, in combination with a storage receptacle for make-up water, means for conducting the make-up water in heat conducting relation to the refrigerating means for the walls of the dough mixer, :and means for circulating the water between the storage receptacle and the means in heat conducting Arelation to the refrigerating means for the mixer wall, to fkeep a. constant flow of water circulating through the cooling means thus provided for the water.

It is a specific purpose. of my inventionto provide a dough mixer with channel members secured to the wall thereofv in such a manner as to provide a clrcuitous conduit for refrigerant, in heat conducting relation to said wall, and means providing passages for water linheat transfer relation to said refrigerant conduits, so that said water will have a circuitous path in heat will appear asthe description ofthe drawings' proceeds. I desire to have it understood, however, that I do not intendl to limit myself to ating means built the particular details shown or described, except Fig. i2 is' a fragmentary 'sectional view ofthe dough mixer walll and associated parts, taken on the line .2-2 of Fig. 1 on an enlarged scale.

Fig. 3 is a similar view ofthe dough mixer wall, taken on the line 3-3 of Fig. 1 on an enlargedhscale.

` Fig. 4 is a fragmentary view partly in sectionand'partly in elevation of a modified form of the refrigerating means applied to a dough mixer wall.

Fig. 5 is a section taken on the line 5-5 of VFig. 4 on an enlarged scale.

Fig. 6 is a view similar to Figa, of a further modication.

Fig. 7 is a section on a slightly enlarged scale,

taken on the line 'I-'I of Fig. 6, and

. Fig. 8 is a section on a somewhat enlarged scale, taken on theline 8--8 of Fig. 6.

section, or substantially half cylindrical in cross section. These can be formed by a die intothis shape orby splitting a tubular member of the proper size. -The channel' members I9 shown in the drawings, preferably, have the edges 2l thereof secured in uid tight relation to the wall portionof the mixer, such -as the wall portion I8, which the same engage, by welding, as indicated at 22, although any other suitable manner of 4securing the same along their edges in fluid tight relation to the mixer wall may be utilized. 'I'he same may be made of any suitable material, such as sheet metal, if desired. Preferably, a good heat conductor, such as copper, or brass, is

lReferring in detan to the drawings, in Fig. 1

wherein is shown a dough mixer having a body portion or bowl III, and beater arms, or agitator members Il, operating in the chamber formed within thev body portion, or bowl, which are mountedA in any suitable manner for rotation about an axis, such, as on the spider I2, fixed to the shaft I3 to rotate therewith.' The' shaft is mounted on suitable bearing members and rotated by means of suitable gearing enclosed in a housing Il, said gearing driving a large gear wheel I5, iixed to the shaft I3, from a motor AIMG. 'l'he body portion of the mixer is provided with end walls I'I, through which the shaft I3 extends, said body portion being tiltable on said shaft by means of suitable mechanism, which is not shown, as it operates in a well known manner. `Extending between the walls I1' is a wall that, together .with the Walls I1, forms a bowl which has a curved bottom portion and inclined `walls I8 leading to the open top of themixer bowl. "I'he mixer bowl is shaped as shown in the bowl that are refrigerated, can-be varied as may be found desirable in designing the mixer,

` 'that is', the extent of the refrigerated'wall surface can be varied as may be desired.

The refrigerating element shown in the vari-V ousforms of the invention illustrated herein,

comprises a continuous'circuitous conduit se'- cured to the exterior wall of the mixer over the flat portions of the inclined' walls- I8 and the Y curved bottom thereof, and comprises a plurality of spaced `refrigerant passages connected in series. `While various means for providing -these passages forming the continuous circuitous conduit v'for the refrigerant in heat conducting relation to the walls of the mixer may be provided p in the manufacture of the dough mixers, or body portions of'dough`mixers, having such refriger:

the same, preferably, channel members are 'for this pllrPOse. Preferutilized for these channel members.

The channels are, of course, cut to suitable size and shape and the sections thereof secured together in liquid tight relation to each other, by welding, or in any other similar manner, to provide a refrigerating coil, or element, that is made up of aplurality of parallel passages, saidlengths being Indicated by the numeral 2l in Fig. 1, and are shown as running parallel to the axis of the mixer body, or bowl', connecting portions 23 -being provided for connecting the adjacent lengths 20 of the coil thus formed, alternately ear the opposite end walls I'l of the mixt'o provide a continuous, sinuous, circuitous path for the refrigerant along the wall of the dough mixer in heat transfer relation thereto over that lportion of the wall that is desired to be refrigerated. VThe uppermost transverse conduit portion 24 on one inclined wall I I of the bowl is provided with a connection 25 leading from the expansion valve 26, and the uppermost transverse conduit on the other inclined wall IB of the bowl has a conduit 21 extending therefrom, made of a channel member I9 in the mannerpreviously described, which conduit extends circumferentially around the mixer bowl back to and adjacent the conduit por- 'tion 2l, as will be clear from Fig. 1 of the drawings, and which has the suction pipe 28 connected therewith, the arrangement of conduits 51ml@ 150 8o through the and condensation cycles required, as long as a direct --system is utilized for cooling the walls of-the dough mixer, a conventional system being shown .inFig. lofthedrawings. Saidsystem comprises a compressor, or pump, 2l driven by'a motor 3l,

from which the conduit 3| leads to a condenser 32, from which a conduit 33 extends to thereceiver 34..' Prom the -receiver the conduit 3i extends to amanually operated valve Il, and from l said valve il theconduit 31 extends to a flexible expansible and conduit portion Il of the metallic bellows type. t0 allow for the movements of the mixer bowl between the two alternative positions that it assumes. The conduit 3l leads through a conduit Il to an electro-magnetic valve Il, which is, preferably. interposed between the receiver and the expansion valvey 2t, and. which operates to cut oi! flow of refrigerant through the expansion valve when the circuit to the motor Il is broken by a thennoaatic controlling means, as will be described below.' The gas return conduit, or suction pipe', 2l, is provided with l. flexible vexpansllile and contractable conduit portion ll, similar to the conduit portion Il previously described, fromwhich the conably, thechannel members are of a curved cross duit I2 leadsto the compressor 29.

. in the mixer, such as shown inmy co-pending Y application. Suitable thermostatic controlling elements are provided for controlling'the cooling of the wall of the mixer, the .particular controlling elements not forming a part of this invention, but

being, preferably, of the type shown in my copending application above referred to. Any tem-- perature respohsive switching means adjustable to a temperature indicated on a dial forming part of the means, which will close a circuit when a predetermined temperature is reached, and maintain said circuit closed for any temperature above that indicated, being suitable for 4the purposes of myA invention, as long as the same are in heat transfer relation to the refrigerated wall of the mixer and responsive to the temperature thereof. Other controlling means, such as time actuated means, may also be provided to control the temperatures of the mixer wall, if this is desirable.

A manually operated switch, such as the switch t3, may be provided for controlling the operation of the motor 30. The valve 316 is provided for the purpose of preventing undue gas pres'- sure on the pump 29, which might blow out a gasket, by manually closing this valve when the mixerv is shut down for the day. The refrigerating fluid in the expansion coil will pass into the suction p ipe 42 and through the pump 29 upon operation of said pump by the motor provided for driving the same. By setting the thermostatic con-l trolling elements, which open and close the circuit to the motor, aswell as to the electromagnetic valve 4!) in response to temperature changes of the mixer bowl wall, at a very high temperature, the'motor will very seldom function after the op eration of the dough mixer has ceased, but Whenever it does, the refrigerant in the form of a gas will be pumped outof the expansion coil into the --condenser and stored in the receiver.

This will continue until a state of equilibrium in the system is reached. In order to accomplish this operation, the switch d3 is left closed while the device is in operation. If the switch 63 were opened and the valve 36- were not provided, then the expansion of the refrigerant in the expansion coil .as the wall of the mixer rises in temperature during a long period of inoperativeness of the mixer would cause/pressure to be built up that would enter the pump 29 and build up excessive valve 66, leads from a point spaced from the bottom of .the tank M, as will be obvious from Fig'. l, the discharge of the water being through the outlet pipe 45 into the mixer bowl in a well known -manner. Said tank d6 also has a liquid conduit 61 extending therefrom, which leads to a pump 8`driven by a motor t9, the pipe @l constituting' the suction line for said pump d8, and the motor G9 .being operated continuously to continuously circulate the water as long as the manually operated' switch Q3 is closed. The apparatus is preferably wired s o that the switch d3 controls the operation of both the motor @9 and the motor 30, in such a manner that the circuit to both will be opened upon opening said switch. However, while the motor is intermittently operated by means of the thermostatic control the motor Ma will be operating the pump d8 to continuously circulate the make-up water.

The discharge pipe 50 leading from the pump t8 is provided with an expansible and contract. able portion 5i, which connects the same with a pipe 52, which leads .to an inlet connection` .56 bei pressure therein, which is avoided by the provision voi the valve 36.A This will ,prevent return of the refrigerant to the evaporator through the expansion valve.

The electro-magnetic valve 150, upon being energized, opens to permit flow through the conduit 35, provided; of course, that the valve 36 is open, the operation of said valve d@ being controlled by the thermostatic controlling elements, and suitable means for selecting the temperatures at which said elements open'and close the circuit -to the yalve 49 and motor 3Q.

It will thus be seen that the flow of refrigerant through the circuitous` conduit provided by means leading into the passage 56 provided between the uppermost refrigerant conduit portion 2t, Athe plate-like member 55 and the angle member tt, said pl te-like member 55 and the angle member welded in fluid tight relation to each other and the angle 56 being weided in iiuid tight relation to the dough mixer wall it, as will be obvious from Fig. 2. A plurality of passages l are provided between the adjacent channel members 'i9 and the plate-like member, or wall, 55, as will be obvious from Fig. 2 of the drawings, said passages terminating at one end thereoir at the connecting portions d3, connecting the lengths of conduit, or refrigerant passages, t, and at the other end thereorby either the conduit portion v2l or the end wall member 58, as the case may be, said end wall member 5B being formed of an angle member in a similar manner to that shown for the top wali 5S of the chamber provided within which the'refrigerant conduits are located, disclosed in Fig, 2. As the passages thus provided are entirely separate from each. other, but are arranged in parallel relation between adjacent refrigerant conduits formed by the channel members is, it is necessary to provide some means for connecting said pasand comprises box-like members 59 that are provided with open ends facing the plate-like member 55, and are mounted over openings et in said plate-like member, leading to adjacent water passages. 'I'he passage 5d and transverse passage 5 7 between adjacent channel members i@ are the adjacent passages shown in Fig. 2 as being connected by the connection illustrated in Fig. 2. A

tube or conduit @l is secured in liquid tight relation in openings in adjacent side walls of the box-like members 59 and the edges of the boxof the channel members IS, will be controlled,

'thermostatically through the electro-magnetic make-up water; or water used for supplying the liquid content of the ldough. to be mixed in the like member.

like members at the open ends thereofiacing the plate-like member 55 are welded to said plate-like member to provide a liquid tight jointbetween said box-like members and the plate- While the passages 5d and the passage 5l are shown asA being so connected in Fig. 2, lt will beobvious from Fig. 1 that similar connecting means isI provided between pairs of passages 5l that are adjacent each other, the second and third passages .below'the entrancepassage te being shown as being connected to- 3 mixer bowl. Anoutlet'pipe t5, controlled by a gether in this manner at the left hand side of Fig. 1, as well as the fourth and fifth passages to be understood that this connection of one pair of adjacent passages on one end .of the mixer is alternated with theconnection of the 51 below said entrance passage. It is, of course, 1

othervv pair of adjacent passages at the other end of the mixer, so thats. circuitous path is formed by'means of these connections cooperating with the parallel passages 51 provided between' the plate 55 and the channel members I9. Thus, while the second and third passages below the entrance passage 54 are connected together by means of the box-like members 58, and the conduits il at `the left hand end of the mixer, the first and second passages 51 below the passage water and other ingredients for the dough mixture is introduced is shown at 'I3 in Fig'. 1.

Suitable heat insulating means of any well known character, that has the desired elllciency, may be provided for the refrigerating means herein described, said heat'rin'sulating material being shown at 1l in Figs. 1 to 3, inclusive, and

. being confined between an outer sheath 15 and 5I are connected together in this manner at,

the right hand end ofthe mixer.`

This alternation of connections continues around the mixer wall to the passage 51 between the last pair of channel members I9 on the opposite wall I8 of the mixer from that illustrated 'in Fig. 2 andthen through a passage similar to thepassage 5I, through a, similar connection to that illustrated in Fig. 2 to a passage 62, whichis, of course, connected with the passage suitable marginal-walls, su'ch as the walls 16 and 11 shown in Figs. 2 and 3, and the walls of the chamber formed between the plate-like member 55 and the angle members, such as the angle member 56 connected with said plate-like member, and the mixer wall I8. Thus the refrigerant conduits are insulated from the atmosphere,

except on the side. thereof formed by the mixer wall i8. Also the water passages are all completely insulated from the atmosphere through'- /out the length thereof except where the same are' in heat transfer relationship to theexpansion coil formed on the wall of the dough mixer bowl by the channel members.

Instead of makingthe circuitous passage for the water in heat transfer relation to the cirsixnilar to the passage' 54 on the opposite -side of the mixer wall I8 from that illustrated in Fig. 2, and which forms a water return passage and lies betweenthe angle member S3, which is welded to the plate-like member 55 and to the wall Il of the mixer, and the channel member I8 that forms the return conduit 21-for the refrigerant from the opposite side of the mixer from that shown in Figs.` 1 and 2, said water return conduit $2 being f the same length substantially as the conduit 21 and having a connection provided, similar to one of the box-like l members 59, at 6I, to a. cold water outlet pipe 65, which is provided with a flexible, expansible and contractableporton 56, similar'to that pre-- viously described in connection with the other conduits provided, that lead to the dough mixer,

cuitous passage for th`e refrigerant in the manner shown in Figs. l to 3, inclusive, the arrangement shown in Figs. 4 and 5 can be used, in which the refrigerant conduits arethe same as previously described, bearing the same reference numerals,

andjn which the inlet connections for the refrigerant and for the water are indicated by the same numerals as in the previously described form of the invention, the only difference between this form and the one previously described being in the manner in which the water is conducted in its circuitous path in heat transfer relation to the refrigerant conduits, or evaporator. 'Said to allowfor the variation in the position of the bowl ofthe mixer.A From said expansible and contractable conduit 66 a pipe slleads to a pipe il that extends into the-upper portion of, the

tank u., Said tank is, preferably, covered with insulation Il.

It will be seen from the above that a circuitous passage for the water-is provided; that lies adjacentthe circuitous refrigerant passage formed by the channel members I9, withonly the heat `conducting wall It of the channel members between said refrigerant passage and said vwater e, the water thus being in heat transfer relation with the expansion -coil formed by vmeans of the channel members I9, and the water will, of course, be constantly circulated bythe pump u, thus preventing any accumulationv of ice inthe passages, even though a very low temperature of the `water can be obtained vby the refrigerating means therefor provided in this mannen@ A certain quantity -of water w'ill, of course, be kept stored in the tank Il, and means is provided for! replenishin'g the supply of water in the tank 44, after withdrawal of a predetermined amount therefrom through the valve '45, said means comprising a valve 69 controlling the supply of tap waterfrom the pipe llito the inlet connection 1I, any suitable float valve, op-

Veen:teruggaaf suitable spat .12, being. providedl for this purpoeThe inlet extending through the housing of. the mixer-through which water cooling coil, or conduit, is made up of lengths of tubing, or pipe, of any suitable inetal/Y preferably, of a metal that has highheat con-A v which said expansion coil extends, the lengths 82 being connected with each other and with the length 8l by means of U-shaped connecting portions 83, which extend over and aroundv the channel members I 9 in the manner illustrated in Fig. 5; the same pipes vl2 lying in the spaces between adjacent channel members I! and in contact therewith, as shown in Fig. 5, so as to be in heat transfer. relation theret'of-"f 'I'he U-shaped members connect, the lengths 82 of the tubing forming the cooling lcoil for the water in -the manner illustrated in Fig.5, to provide the circuitous passage for the water. The pipe It lies in engagement with only one side of the first channel member IS of 4the expansioncoil, while a similar pipe is provided at the other endfof the expansion coil on the other wall Il of the mixer opposite that shown in Figs. 4 and 5, 'from which the return pipe N extends.. to the coldwater out let pipe, 65. in contact with the refrigerant 4return conduit 21. The heat insulating'material is' arranged in asimilar mannerto that previously described, and liesl between a sheath, such as previously described, and bearing the saule ref- "i" M ai".

the channel members i9 and wall i8, and surf rounding the lengths of tubing fog the Water conduit, except where the same are in engagement with the channel members i9, as will be obvious from Figs. d and 5.

One of the most desirable ways of providing a circuitous water passage in heat transfer rela-n tion to the refrigerant conduits from the standl point of providing tight joints and simplifying the construction, is that shown in Figs. 6, Z and 8, in which the inlet pipe for the water and the cold water outlet pipe are designated by the same reference numerals as in the other forms of the invention, and in which the refrigerant expansion coil is made in the same manner as previously described and bears the same reference numerals. The entrance, or top, length of the refrigerant coil is indicated by the numeral 26 and the other parallel lengths by the numeral 2li, as in the other forms of the invention. A chamber is provided surrounding the lengths of refrigerant coil 2d and 2@ and the connecting mrtions 23, by providing a plate-like member 35, which is secured to the iianges of angle members 86 forming the marginal walls of the chamber, which are connected by welding or in a similar manner, with the Wall-oi the dough mixer, such as the wall it, and the plate-like member $5, to provide liquid tight joints between the members 86 and the walls it and b5. A chamber is thus provided that entirely encloses the entire refrig-a erant coil, including the return conduit El, as will be obvious from Figs. il and 8. `The chamber thus formed is partitioned in a manner to provide a circuitous conduit or path for the Water -from the' inlet pipe. bfi to the outlet pipe b5, `by

means of baille members that are macieup of angles il? and An angle member @il is also provided, spaced from the angle member along the right hand end oi the chamber, as shown in Fig. 6, with the conduit @il therebetween so as to form a passage til between the angle members lib and del, the mail vthe channel member i@ and the platediire member 35.

' @,liddb erence numerals as in Figs. l to 3, inclusive, and 4 ing a' mixing chamber, of means for supplying Water to the interior of said mixing chamber andangles it, in a similar manner to that previously described, and said sheath and insulating maa'rx bear the same reference numerals as ap plied thereto in Figs. 1 to 3, inclusive.

It is to be understood that in all forms of 'the invention the channel members can be made .of any desired cross sectional shape, but that the semi-cylindrical shapel is particularly desirable from the standpoint of strength, and also pro- A vides spaces for cooling the water between the same in the forms of the invention shown in Figs. 1 to 3, and 6 to 8. inclusive, no matter how closely the marginal portions of the channel members i9 may be arranged to each other. The spacing of the channel members can be varied as desired, but the same may be placed as close together as possible and yet permit welding of the edges to the mixer wall, if such close spacing is desirable to obtain the desired refrigerant action from the expansion coil formed therewith.

What I claimis: x

l. lThe combination with a dough mixer hav* means externally of said chamber for cooling a wall of said chamber and sim taneously coolinr said water before being supp ed to the interior of said chamber. l

2. The combination with a. dough mixer hav- -ing a miidng chamber, of means for feeding water into said mixing chamber and refrigerating means externally of said chamber for cooling a wall of said chamber and simultaneously cooling said water before being fed into said chamber.

The angle members @il and @il are arranged in an alternating manner. so as to iorm bafries that are spaced from the side wall iili'at the left hand end of the chamber above referredl to and the partition member formed by the angle thi, the Wall portions t? beine secured in liquid tight relation to the partition 39, and the wall portions being secured in liquid tight relation to the left hand end wall Sii to thus provide passages around the ends of the partitions formed by the members 87 and @t that are located on opposite ends of the chamber for the water, thus providing a circuitousconduit for the water from the inlet connection' b2 to the conduit Si?, which.A is connected with the last of the passages formed by means of a transverse angle member di, anda marginal wall portion t@ leading from oneoi` the passages between one of the baies 88 and one of the baos il to said passage bil. A plurality of parallel refrigerant passages, or conduits, such as the passages 263, are provided in each length of the .circuitous water passage thus formed, as will be evident from Fig. i.' The particular number of lengths oi conduit provided in each water DRS- sage can, oi. course, be varied as may be found desirable to get the desired rate of circulation or the water in the passages to prevent formation of ice therein. The heat insulating material is provided between the sheath and the walls of 3. The'combination with a dough mixer, of a make-up water re eptacle discharging into said mixer, a mixing c amber, direct expansion rei'rigerating means in heat transfer relation to a wall of said chamber, and means for circulating make-up water in heat transfer relation to said reirigerating means.

fi. In a dough mixer, a mixing chamber having I a wall and refrigeratlng means for said wall, comprising a refrigerant expansion chamber in direct v heat transfer relation to said wall, said expansion chamber corriprlslnar a continuous circutous conduit secured to said wall comprising la plurality of spaced refrigerant passages connected in series, and means providing a water conduit in heat transfer relation to said refrigerant conduit.

5. In a dough mixer, chamber having a wall and refrlgeratingineansfor said wall, comprising a refrigerant expansiocbhamber in direct heat transfer relation l chambercomprisinga continuous vcircuitous conduit secured to said wall comprising a plurality of spaced refrigerant passes: aconnected in series, and means providing* ntfnuous circuitous water conduit in heat refrigerant conduit. i

d. In av dough mixer, a mixing chamber havins a wall and refrigerating means for said wall, comprising a refrigerant expansion chamber in' direct heat transfer relation to said wall, said expansion .chamber comprising a continuous cir. eutous conduit secured to said wall comprising a plurality of spaced refrigerant passages connected in series, means providing a water conduit in heat transfer relation to said refrigerant conduit and means for continuously circulating 'make-up water through said water conduit.

7. In a mixer, a mixing chamber having a wall and refrigerating means for said wall, comprs- `transfer relation to' said chamber comprising a plurality of spaced channel members, connected in series to forma continuous circuitous conduit, and means cooperating with said channel members to form a water conduit in"heattransfer relation to said refrigerant conduit.. y

8. In a mixer, a mixing chamber having a wall and refrigerating means for said wall, comprising a refrigerant expansion chamber in direct heat transferrelation to said wall, said expansion chamber comprising a plurality of spaced channel members, connected in series to form a continuous circuitous conduit, and means cooperating with said channel members to form a water conduit in heat transfer relation to saidrefrigerant conduit, comprising a Wall bridging adjacent channel members to form passages between the same and means connecting adjacent passages in series.

9. In a mixer, a mixing chamber having a wall and refrigerating means for said wall, comprising a refrigerant expansion chamber Iin direct heat transfer relation to saidgwall, said expansion chamber comprising a plurality of spaced channel members, connected in series to form a continuous circuitous conduit, and means cooperating with said channel members to form a `water conduit in heatv transfer relation to said refrigerant conduit, comprising a 'wall spaced from said channel members to provide a water chamber back of and'between the same, and' erating with said channel members to form a water conduit in heat transfer relation to saidv refrigerant condultrcomprising water pipes alternating with sai'd channel members and in heat transfer engagement therewith and means connecting adiacent pipes in series.

` 11.'In a mixer, a mixing chamber having av wall, refrigerating means for said wall, compris- -V ing an expansion chamber in direct heat trans- .fer relation to said wall. means for -conducting water in heat transfer relation to said expansion chamber, and means for insulating said expansion chamber and water conducting means from the atmosphere.

12. In a dough mixer, a mixing chamber movable between alternative positions, retrigerating means for a wallof said chamber comprisingan -expansion coilA in direct heat transfer relation ing a mixing chamber, refrigerating means for said chamber comprising an expansion coil, wa-

make-up 'water receptacle. said-dough mixer having a mixing chamber, refrigerating means for said chamber comprising an expansion coil.

Water cooling conduit means mounted in heatv 1 transfer relation to said expansion coil, a pump, conduit vmeans connecting said water cooling conduit means, said pump and said receptacle to circulatewater between said cooling means and said receptacle, means for discharging water from said receptacle into said mixing chamber and means for maintaining a predetermined -ievel of water in said receptacle.

15. In a mixer, a mixing chamber having a wall and refrigerating means for said wall, comprising a refrigerant expansion chamber in direct heat transfer relation to said'wall, said expansion chamber comprising a plurality of spaced, substantially straight? parallel channel members arcuate in transverse section, and members providing passages connecting said channel members alternately in series at opposite ends thereof to form a continuous c ircuitous conduit.

16. In a mixer, a mixing chamber having a wall and refrigerating means for said wall, comprising a refrigerant expansion chamber in direct heat transfer relation to said wall, said expansion chamber comprising a plurality of spaced channel members arcuate in transverse section, connected in series to forma continuous circuitous conduit, and means cooperating with said channel members to form a water conduit in heat transfer relation to said refrigerant conduit.

in heat transfer relation to said refrigerating means, and means connecting said make-up -water receptacle with said circulating means.

18. In a dough mixer, a mixing. chamber, means therein for engaging dough with a wall thereof and refrigerating means for said wall in direct heat transfer relation to said wall, said refrigerating means comprising a continuous circuitous refrigerant conduit secured to said wall, comprising a plurality of spaced refrigerant i passages connected in series, and means for suppLving cooled make-up water to -said mixing chamber comprising means providing a water conduit in heat transfer relation to said refrigerant conduit and means for continuously circulating maire-up water throughY said water conduit. J- v y. l

19. In a mixera mixing chamber having a wall and reirigeratingmeans foi-said wall in direct heat transfer relation to said wall, said l refrigerating means comprising a plurality of spaced channelmember's, connected in series to forma continuous circuitous refrigerant conduit, and means cooperating with said channel mem-l Y bers to-form a water conduit in heat transfer ter cooling conduit means mounted in heat transl fer relation to'said expansion coil, a pump, and conduit means connecting said water cooling conduit means, said vpump and said receptacle to circulate water between said cooling means and said receptacle. A. 14. The combination with a dough mixer, of a" relation to said refrigerant conduit', comprising a wallbridging adjacent channel members to form passages between the same and means connecting adjacent passages in series. 20. In a mixer, a 'mixing chamber having wall and refrigerating means for said wall in direct heat transfer relation to saidwall, said refrigerating means comprising a'plurality of spaced Achannel members, connected in serleseto Y form a continuous circuitous refrigerant conduit, and means cooperating with said channel members to form a water conduitin heat transfer relation to said. refrigerant conduit. comprising a wall spaced from said channel members to .provide a Water chamber back of and between the same, .and baiiies in said water chamber extending to form a continuous circuitous passage thereof. v v I 21. In a mixer, a mixing chamber having a. wall Aand refrigerating means for said wall in direct heat transferA relation to said lwall, said refrigerating means comprising a plurality 'of spaced 10 channel members, connected in series to f orm a continuous circuitous refrigerant conduit, and

means cooperating with said channel membersto form a water conduit in heat transfer relation to said refrigerant conduit, comprising water 15 MERLIN A. STICELBER. 

